Characterization of F3II, a sarcomatoid mammary carcinoma cell line originated from a clonal subpopulation of a mouse adenocarcinoma (original) (raw)
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Clinical & Experimental Metastasis, 1984
The biological and metastatic properties of cells from a murine mammary adenocarcinoma, MT1, were studied during serial transplantation in syngeneic hosts. Over 35 generations the tumour progressed from a well-differentiated, poorly metastatic neoplasm to an anaplastic highly metastatic state. At early passages the tumour yielded uniform cultures of cuboidal epithelial cells, at passage 17 both epithelioid and spindle type cells were present, and by passage 30 only spindle type cells were obtained. Epithelioid cell lines and clones when injected intravenously into syngeneic hosts produced lung colonies only, whereas spindle cell lines were capable of extensive extrapulmonary colonisation. Similar patterns of dissemination and growth were seen in spontaneous metastasis assays. In spite of the marked phenotypic differences in these 'subpopulations', their comparable ultrastructural features, oestrogen receptor levels, expression of MMTV antigens, DNA content and lectin binding profiles suggested a common cell lineage. It is proposed that these cell lines will be of use in the determination of tumour and host factors influencing tumour progression and the evolution of metastatic potential.
Oncology Reports, 1996
We have invcstigatcd the role of coagulation and fibrinolysis during thc mctastatic lung coronization of F3II rnouse mammary carcinoma cells. The selcctive synthetic urokinase inhibitor B623 significant"ly enhanced lung colonization and blocked the antimetastatic effect of heparin when a<lminislered i.p. during the first stages of metastasis fbnnation. In 8623_ treated mice the overall activity of the llbrinolytic system was rcduced and circulating urokinase was specifically inhibited by this agent. In vilrz sturlies clemonstrated thatB623 induccs the aggregation of F3II cells in the prescnce of mouss plasma and facilitates the cntrapmcnt of tumor cclls in a fibrin gel matrix. Our data suggest that imbalanccs of fibrin deposition and removal may dramatically influence metastati0 lung colonization. can cffectively clcar librin deposits is unccrtain. Incr.eased expression of the profibrinolytic cnzyme urokinase_type plasminogen aclivator (uPA) has been documented in many tumor cells in culture and in tissues. This protease is involved in local tumor invasion, having a critical role ir the destruction
Differential characteristics of two newly established human breast carcinoma cell lines
Cancer research, 1985
Two human breast carcinoma cell lines, EP and MW, were established in culture from malignant pleural effusions. In addition to producing tumors in antithymocyte serum-immunosuppressed mice, both cell lines showed epithelial characteristics and anchorage-independent growth in soft agar. EP and MW differed in morphology (spindle-shaped versus round), chromosomal mode (hyperdiploid versus near triploid), estrogen receptor content (43.8 versus 5.1 fmol/mg protein), cloning efficiency (0.24 versus 15%), and activities (milliunits/10(6) cells) of creatine phosphokinase (25.7 versus 62.6) and lactate dehydrogenase (346.7 versus 778.5). Electron microscopy revealed that MW cells had more perinuclear filamentous material and more frequent intracytoplasmic vacuole formation than did EP cells. While having no effect on MW cells at the concentrations studied (10(-5) to 10(-11) M), beta-estradiol (10(-7) M) stimulated the growth of EP cells by 106% over the hormone-depleted control. In a variety...
Tumor cell dissemination patterns and metastasis of murine mammary carcinoma
Cancer research, 1989
Quantitative studies on the distribution kinetics of isotope-labeled cells from spontaneous murine mammary tumors injected intravenously or arterially showed that cells were rapidly distributed to all organs examined and indicated that the distribution patterns of metastases from such tumors are not primarily determined by the dose of cells delivered to each organ. The preferential colonization of certain organs is therefore considered to depend as much on differential survival and growth of the disseminated tumor cells in unfamiliar metabolic microenvironments, as on vascular sieving effects in organ capillary networks. Further experiments involved transplantation of pieces of nonpulmonary tissue containing trapped mammary tumor cells into syngeneic mice, followed by observation of the animals for several months. From these studies it is concluded that the absence of tumor colonies in extrapulmonary sites after i.v. inoculation is due to their inability to thrive in the organs conc...
In Vitro Cellular and Developmental Biology--Animal, 2000
In order to isolate, characterize, and establish culture cell lines with different diagnostic and prognostic significance, derived from multiclonal neoplasms, a ductal infiltrating mammary tumor was induced in rats by 7,12-dimethylbenz[a]anthracene. Clones with different DNA/protein content, being the DI of 1.16, 1.30, and 1.60, respectively, were observed in the primary tumor. Biparametric flow cytometry suggested that the clone at 1.30 is made up of two subpopulations with different protein and slightly different DNA contents. The culture, after a few passages, exhibited the presence of aneuploid cells and the absence of diploid components, demonstrating that only tumor cells survived. The limiting dilution method gave rise to four lines with DI of 1.16, 1.25, 1.30, and 1.50; a mean chromosome number of 45, 46, 47, and 88, respectively; and different morphological and uhrastructural features. These characteristics were stable during the experimental procedure, that is, for about 20 passages. Conversely, the detection of cytoskeletal proteins indicated that the tumor epithelial cells underwent early dedifferentiation into sarcoma-like cells showing markers of stromal cell type and thus exhibiting phenotypic instability in vitro, a feature reported in many advanced human breast cancers in vivo. In conclusion, this cellular model represents the in vivo situation and appears suitable for in vitro studies of tumor cell characteristics and might be used to predict clinical behavior.
Breast Cancer …, 2003
The remarkable generation of scores of increasingly sophisticated mouse models of mammary cancer over the past two decades has provided tremendous insights into molecular derangements that can lead to cancer. The relationships of these models to human breast cancer, however, remain problematic. Recent advances in genomic technologies offer significant opportunities to identify critical changes that occur during cancer evolution and to distinguish in a complex and comprehensive manner the key similarities and differences between mouse models and human cancer. Comparisons between mouse and human tumors are being performed using comparative genomic hybridization, gene expression profiling, and proteomic analyses. The appropriate use of genetically engineered mouse models of mammary cancer in preclinical studies remains an important challenge which may also be aided by genomic technologies. Genomic approaches to cancer are generating huge datasets that represent a complex system of underlying networks of genetic interactions. Mouse models offer a tremendous opportunity to identify such networks and how they relate to human cancer. The challenge of the future remains to decipher these networks in order to identify the genetic nodes of oncogenesis that may be important targets for chemoprevention and therapy.
TS/A: a new metastasizing cell line from a BALB/c spontaneous mammary adenocarcinoma
Clinical & Experimental Metastasis, 1983
A metastasizing mouse cell line (TS/A), originated from a mammary adenocarcinoma which arose spontaneously in a BALB/c female retired breeder, has been established in vitro. It displayed a remarkable morphologic heterogeneity, which is evident in plastic adherent cultures (cell types ranging from epithelial-like to fibroblast-like) as well as in semi-solid agar cultures. The TS/A line exhibited the presence of specific cytoplasmic estradiol receptor, with a binding activity of 16 fmoles/mg cytosol protein. The in vivo growth pattern was as follows: (1) a s.c. inoculum of 105 cells caused a 100 per cent tumor take and kill in syngeneic animals; mean survival time was 54 + 1 days; (2) it did not show significant transplant immunogenicity in syngeneic animals; (3) it was able to give rise to both spontaneous lung metastases and artificial lung colonies; (4) it had a high capacity to grow in H-2 matched, minor histocompatibility antigen incompatible hosts (106 cells killed 100 per cent DBA/2 mice in 58 + 2 days). This line of spontaneous mammary tumor cells is proposed as a useful model for studies on the heterogeneity of the neoplastic population in relation to metastatic spread, on tumor immunogenicity, and on therapy of mammary neoplasia.
Oncogene, 2000
The 5'¯anking region of the C3(1) component of the rat prostate steroid binding protein (PSBP) has been used to successfully target the expression of the SV40 large Tantigen (Tag) to the epithelium of both the mammary and prostate glands resulting in models of mammary and prostate cancers which histologically resemble the human diseases. Atypia of the mammary ductal epithelium develops at about 8 weeks of age, progressing to mammary intraepithelial neoplasia (resembling human ductal carcinoma in situ [DCIS]) at about 12 weeks of age with the development of invasive carcinomas at about 16 weeks of age in 100% of female mice. The carcinomas share features to what has been classi®ed in human breast cancer as in®ltrating ductal carcinomas. All FVB/N female mice carrying the transgene develop mammary cancer with about a 15% incidence of lung metastases. Approximately 10% of older male mice develop anaplastic mammary carcinomas. Unlike many other transgenic models in which hormones and pregnancy are used to induce a mammary phenotype, C3(1)/Tag mice develop mammary tumors in the mammary epithelium of virgin animals without hormone supplementation or pregnancy. Although mammary tumor development appears hormone-responsive at early stages, invasive carcinomas are hormone-independent, which corresponds to the loss of estrogen receptor-a expression during tumor progression. Molecular and biologic factors related to mammary tumor progression can be studied in this model since lesions evolve over a predictable time course. Genomic alterations have been identi®ed during tumor progression, including an ampli-®cation of the distal portion of chromosome 6 containing ki-ras and loss of heterozygosity (LOH) in other chromosomal regions. We have demonstrated that stage speci®c alterations in the expression of genes which are critical regulators of the cell cycle and apoptosis are functionally important in vivo. C3(1)/Tag mice appear useful for testing particular therapies since growth of the mammary tumors can be reduced using chemopreventive agents, cytokines, and an anti-angiogenesis agent.